Exploring the RTI (real-time incentive) tariff-based approach to single-species fisheries management

Fixed closure (FC) is a standard fisheries management tool for protecting sensitive species or species requiring conservation. However, an FC might not effectively manage migratory species because of the large uncertainties of their migration. Adaptive real-time closure (ARTC) is a tool that updates closure areas according to the latest information. This study aimed to evaluate the effectiveness of ARTC to conserve sensitive species for data-limited fisheries by a series of simulations using migration models with hotspots. In the single species simulation, the conservation ratio for the sensitive species in FC varies widely at greater migration uncertainty. In ARTC, a longer duration of a hotspot resulted in a higher conservation ratio. When the mean duration of hotspots was medium or long, the conservation ratio for the sensitive species was more than 50 % in more than 99 % of the simulation trials. In multispecies fisheries, a clear trade-off was observed between the conservation ratio of sensitive species and other species. ARTC was more effective than whole closure when the proportion of sensitive species was high or without closure when the proportion was low. Conditions in which ARTC was most appropriate were described for hotspot duration, increased numbers of individuals in a hotspot, and the relative value of conservation, representing the ratio of the value of conserving sensitive species to one of catching other species.

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Quantitative Detection of Species-Specific DNA in Feedstuffs and Fish Meals

Journal of Food Protection ◽

10.4315/0362-028x-68.6.1217 ◽

2005 ◽

Vol 68 (6) ◽

pp. 1217-1221 ◽

Cited By ~ 27

Author(s):

PAVEL KRCMAR ◽

EVA RENCOVA

Keyword(s):

Mitochondrial Dna ◽

Real Time ◽

Dna Sequences ◽

Real Time Pcr ◽

Single Species ◽

Absolute Quantification ◽

Quantitative Detection ◽

Vertebrate Species ◽

Target Species ◽

Species Specific

A sensitive and rapid method for the quantitative detection of bovine-, ovine-, swine-, and chicken-specific mitochondrial DNA sequences based on real-time PCR has been developed. The specificity of the primers and probes for real-time PCR has been tested using DNA samples of other vertebrate species that may also be present in rendered products. The quantitative detection was performed with dual-labeled probes (TaqMan) using absolute quantification with external standards of single species meat-and-bone meals. This method facilitates the detection of 0.01% of the target species–derived material in concentrate feed mixtures and fish meals.

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Marine ecosystem assessment in a fisheries management context

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/f02-115 ◽

2002 ◽

Vol 59 (9) ◽

pp. 1429-1440 ◽

Cited By ~ 145

Author(s):

Jason S Link ◽

Jon K.T Brodziak ◽

Steve F Edwards ◽

William J Overholtz ◽

David Mountain ◽

...

Keyword(s):

Fisheries Management ◽

Marine Ecosystem ◽

Single Species ◽

Reference Points ◽

System Level ◽

Multivariate Statistical Methods ◽

Multivariate Statistical ◽

Management Context ◽

Ecosystem Level ◽

Ecosystem Based Fisheries Management

We examined a suite of abiotic, biotic, and human metrics for the northeast U.S. continental shelf ecosystem at the aggregate, community, and system level (>30 different metrics) over three decades. Our primary goals were to describe ecosystem status, to improve understanding of the relationships between key ecosystem processes, and to evaluate potential reference points for ecosystem-based fisheries management (EBFM). To this end, empirical indicators of ecosystem status were examined and standard multivariate statistical methods were applied to describe changes in the system. We found that (i) a suite of metrics is required to accurately characterize ecosystem status and, conversely, that focusing on a few metrics may be misleading; (ii) assessment of ecosystem status is feasible for marine ecosystems; (iii) multivariate points of reference can be determined for EBFM; and (iv) the concept of reference directions could provide an ecosystem level analog to single-species reference points.

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Food for thought: pretty good multispecies yield

ICES Journal of Marine Science ◽

10.1093/icesjms/fsw071 ◽

2016 ◽

Vol 74 (2) ◽

pp. 475-486 ◽

Cited By ~ 31

Author(s):

Anna Rindorf ◽

Catherine Mary Dichmont ◽

Phillip S. Levin ◽

Pamela Mace ◽

Sean Pascoe ◽

...

Keyword(s):

Fisheries Management ◽

Single Species ◽

Maximum Sustainable Yield ◽

Social Benefits ◽

Sustainable Yield ◽

Average Yield ◽

Operational Management ◽

Operating Space ◽

Management Advice ◽

Safe Operating

Abstract MSY principles for marine fisheries management reflect a focus on obtaining continued high catches to provide food and livelihoods for humanity, while not compromising ecosystems. However, maintaining healthy stocks to provide the maximum sustainable yield on a single-species basis does not ensure that broader ecosystem, economic, and social objectives are addressed. We investigate how the principles of a “pretty good yield” range of fishing mortalities assumed to provide >95% of the average yield for a single stock can be expanded to a pretty good multispecies yield (PGMY) space and further to pretty good multidimensional yield to accommodate situations where the yield from a stock affects the ecosystem, economic and social benefits, or sustainability. We demonstrate in a European example that PGMY is a practical concept. As PGMY provides a safe operating space for management that adheres to the principles of MSY, it allows the consideration of other aspects to be included in operational management advice in both data-rich and data-limited situations. PGMY furthermore provides a way to integrate advice across stocks, avoiding clearly infeasible management combinations, and thereby hopefully increasing confidence in scientific advice.

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Size matters: How single-species management can contribute to ecosystem-based fisheries management

Fisheries Research ◽

10.1016/j.fishres.2008.01.005 ◽

2008 ◽

Vol 92 (2-3) ◽

pp. 231-241 ◽

Cited By ~ 105

Author(s):

Rainer Froese ◽

Amanda Stern-Pirlot ◽

Henning Winker ◽

Didier Gascuel

Keyword(s):

Fisheries Management ◽

Single Species ◽

Species Management ◽

Ecosystem Based Fisheries Management

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Advancing ecosystem management strategies for the Gulf of Mexico's fisheries resources: implications for the development of a fishery ecosystem plan

Bulletin of Marine Science ◽

10.5343/bms.2019.0081 ◽

2020 ◽

Vol 96 (4) ◽

pp. 617-640

Author(s):

Andrea Dell'Apa ◽

Joshua P Kilborn ◽

William J Harford

Keyword(s):

Fisheries Management ◽

Ecosystem Management ◽

Fishery Management ◽

Planning Process ◽

Marine Ecosystem ◽

Management Strategies ◽

Single Species ◽

Ecosystem Approach ◽

Large Marine Ecosystems ◽

The Us

Recent global improvements to fisheries sustainability have been made through the adoption of more holistic management frameworks, such as the ecosystem approach to fisheries management (EAFM) and ecosystem-based fisheries management (EBFM), and a concurrent transition from a focus on single species or stocks to multispecies and ecosystems. In the US, federal and regional fisheries management encompass multiple layers of comprehensive, ecosystem focused management strategies for living marine resources within its network of large marine ecosystems (LMEs). Here, we provide an overview for the US portion of the Gulf of Mexico large marine ecosystem (GOM-LME) by examining multiple aspects of its fishery management scheme through the lenses of EAFM, EBFM, and the integrated ecosystem assessment (IEA) framework that has been used worldwide to advise, inform, and operationalize ecosystem management. The US-GOM's fishery management and ecosystem community appears to be keeping pace with other US regional efforts. However, more tools like fishery ecosystem plans (FEPs), which are conducive to the effective integration of ecosystem considerations into fishery management processes, are needed to inform and guide the work of regional managers, decision-makers, and stakeholders. Therefore, we propose a structured planning process aimed at advancing the development and implementation of a GOM-FEP, and describe two case studies of EAFM and EBFM applications, respectively, that can help to navigate through our proposed planning process. This work offers strategic guidance and insights to support efforts of regional fishery managers to translate ecosystem management principles, approaches, and objectives into an "action oriented" FEP in the GOM-LME.

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An investigation into fisheries interaction effects using Atlantis

ICES Journal of Marine Science ◽

10.1093/icesjms/fsu114 ◽

2014 ◽

Vol 72 (1) ◽

pp. 275-283 ◽

Cited By ~ 13

Author(s):

Michael D. Smith ◽

Elizabeth A. Fulton ◽

Robert W. Day

Keyword(s):

Fisheries Management ◽

Carrying Capacity ◽

Stock Assessment ◽

Single Species ◽

Interaction Effects ◽

Fishing Effort ◽

Maximum Sustainable Yield ◽

Simultaneous Increase ◽

Total Catch ◽

The Impact

Abstract Fisheries management is commonly based on the outputs of single-species stock assessment models. While such models are appropriate for tactical issues such as quota setting, they typically omit explicit trophic interactions between different parts of the ecosystem. To successfully manage multiple fisheries in the same ecosystem, we need to understand how fishing one species may indirectly affect other species. In this paper, we used a simulation model of the southern Benguela ecosystem, built in the Atlantis framework, to explore fisheries interaction effects. We first measured the impact of fishing different stocks individually at FMSY, the hypothetical level of fishing effort which produces maximum sustainable yield (MSY) in a single-species modelling context. We then applied FMSY to all stocks simultaneously and compared the simultaneous yield with the sum of yields from the individual applications of FMSY. Contrary to expectations, the total catch was higher under the simultaneous scenario. We explored our results by studying the influences of trophic interaction between species at different levels of the foodweb, and found that our overall result was driven by two key factors: volumetric dominance of small pelagic fish in the total catch, and asymmetric influences of competition and predation between piscivorous and planktivorous species. The simultaneous increase in fishing pressure across multiple species in the model led to increased effective carrying capacity for small pelagic species (due to reduced competition), but reduced carrying capacity for piscivorous species (due to reduced small pelagic prey). This work has important implications for the design of tactical multispecies models for use in ecosystem-based fisheries management.

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Effectiveness of lobster fisheries management in New Zealand and Nova Scotia from multi-species and ecosystem perspectives

ICES Journal of Marine Science ◽

10.1093/icesjms/fsw127 ◽

2016 ◽

Vol 74 (1) ◽

pp. 146-157 ◽

Cited By ~ 4

Author(s):

Tyler D. Eddy ◽

Julio N. Araújo ◽

Alida Bundy ◽

Elizabeth A. Fulton ◽

Heike K. Lotze

Keyword(s):

New Zealand ◽

Nova Scotia ◽

Fisheries Management ◽

Single Species ◽

Homarus Americanus ◽

Maximum Sustainable Yield ◽

Ecosystem Impacts ◽

Ecosystem Effects ◽

Trade Offs ◽

Large Predators

In New Zealand and Nova Scotia, lobster (Jasus edwardsii and Homarus americanus, respectively) is the most valuable export fishery. Although stock assessments and indicators assist in evaluating lobster fisheries, ecosystem effects are largely unknown, hindering ecosystem-based fisheries management (EBFM). We employed ecosystem models for the Cook Strait, New Zealand and western Scotian Shelf, Nova Scotia, Canada, to evaluate trade-offs between catches and ecosystem impacts in lobster fisheries from single- and multi-species perspectives. We ran simulations to independently determine exploitation rates that produced maximum sustainable yield (MSY) for lobster, and for all fished groups. We then ran simulations using these MSY exploitation rates simultaneously, and simulations to maximize multi-species MSY (MMSY). Our results indicate that current lobster exploitation rates in both regions are greater than those producing MSY, and have significant ecosystem impacts. Simulating multi-species fisheries, in both systems the sum of single-species MSY for all fished groups was less than the sum of catches where exploitation rates were run simultaneously. Runs maximizing MMSY across the entire ecosystem increased exploitation rates on many fished groups, and produced even greater total catch—yet with much greater ecological costs—and in Nova Scotia, collapses of sharks, large predators, and lobster themselves. As fisheries management moves towards multi-species and ecosystem-based approaches, we suggest that MMSY targets should be treated similarly to MSY—not as a target, but a limit. Even then, careful evaluation is required before implementation to ensure that there are no undesirable economic or ecological consequences.

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Using food web model results to inform stock assessment estimates of mortality and production for ecosystem-based fisheries management

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/f10-071 ◽

2010 ◽

Vol 67 (9) ◽

pp. 1490-1506 ◽

Cited By ~ 31

Author(s):

Sarah K. Gaichas ◽

Kerim Y. Aydin ◽

Robert C. Francis

Keyword(s):

Food Web ◽

Fisheries Management ◽

Prey Availability ◽

Stock Assessment ◽

Marine Ecosystem ◽

Single Species ◽

Balance Model ◽

Fishing Mortality ◽

Important Species ◽

Predation Mortality

Examining food web relationships for commercially important species enhances fisheries management by identifying sources of variability in mortality and production that are not included in standard single-species stock assessments. We use a static mass-balance model to evaluate relationships between species in a large marine ecosystem, the coastal Gulf of Alaska, USA. We focus on food web relationships for four case-study species: Pacific halibut ( Hippoglossus stenolepis ), longnose skate ( Raja rhina ), walleye pollock ( Theragra chalcogramma ), and squids (order Teuthoidea). For each, we present the species’ position within the food web, evaluate fishing mortality relative to predation mortality, and evaluate diet compositions. We find that high trophic level (TL) species, whether commercially valuable (halibut) or incidentally caught (skates), have mortality patterns consistent with single-species assessment assumptions, where fishing mortality dominates natural mortality. However, assessments for commercially valuable (pollock) or incidentally caught (squids) mid-TL species can be enhanced by including food web derived predation information because fishing mortality is small compared with high and variable predation mortality. Finally, we outline food web relationships that suggest how production of species may change with diet composition or prey availability.

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A multiplex real-time PCR assay for the simultaneous quantification of the major plant-parasitic nematodes in Japan

Nematology ◽

10.1163/138855410x543175 ◽

2011 ◽

Vol 13 (6) ◽

pp. 713-720 ◽

Cited By ~ 5

Author(s):

Yu Yu Min ◽

Keita Goto ◽

Koki Toyota ◽

Erika Sato

Keyword(s):

Real Time ◽

Real Time Pcr ◽

Simultaneous Detection ◽

Environmental Dna ◽

Single Species ◽

The Other ◽

Parasitic Nematodes ◽

Pcr Assay ◽

Multiplex Pcr Assay ◽

Pcr Assays

AbstractMultiplex real-time PCR assays were developed to quantify multiple species of Meloidogyne incognita, Pratylenchus penetrans, Globodera rostochiensis and Heterodera glycines in soil. The probes specific for P. penetrans and H. glycines are labelled with a fluorescence molecule, FAM, and those for M. incognita and G. rostochiensis with ROX. The primers and probes are species-specific to P. penetrans, but group-specific to the other species. DNA was extracted from suspensions containing each nematode and multiplex Cycleave® PCR assays were done for pairs of P. penetrans and M. incognita, P. penetrans and G. rostochiensis, or G. rostochiensis and H. glycines. The results revealed that the target nematode, except for H. glycines, was quantified in the presence of less than 100 times that of the other nematode (competitor), but underestimated in the presence of 1000 times the competitor. Such underestimation was solved by the use of SYBR Green I real time PCR assays targeting a single species. Multiplex PCR assay for P. penetrans and M. incognita was done using environmental DNA (eDNA) extracted from a soil naturally infested with the nematodes. Results quantified both species. Multiplex assay using eDNA may enable a sensitive and simultaneous detection of P. penetrans and M. incognita or P. penetrans and G. rostochiensis in soil although caution is needed in case the existing ratio is biased to one of the species.

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